Influence of surface roughness on multidiffusive mixed convective nanofluid flow

Patil, P.M.; Shashikant, A.; Hiremath, P. S.; Momoniat, E.

doi:10.1088/1402-4896/ab058d

Cited by 10 publications

(2 citation statements)

References 32 publications

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“…Ghosh and Mukhopadhyay 4 have studied the mixed convective flow of nanofluid with arbitrary-shaped nanoparticles under the influence of heat source/sink. Recently, Patil et al [5][6][7] have carried out numerical investigations on the mixed convective flow of nanofluid over various geometries.…”

Section: Introductionmentioning

confidence: 99%

Homogeneous and heterogeneous reactions in the mixed convection flow of hybrid nanofluid over a slender cylinder

Patil

Benawadi

Tonannavar

et al. 2022

Asia-Pacific J Chem Eng

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This article is about the study of homogeneous and heterogeneous reactions in the mixed convection flow of hybrid nanofluid over a moving vertical slender cylinder. It is based on the considerations of unequal diffusivity of chemical species and the numerical solutions from the nonsimilar approach. This study has found applications in many chemically reacting processes, including the processes in the biochemical systems, combustion, and catalysis. Numerically approximate solutions to a set of equations, which govern the flow, temperature, and concentrations of the chemical species with prescribed boundary constraints, are obtained by utilizing the implicit finite-difference scheme aided by the quasi-linearization technique. The impacts of several relevant parameters on various profiles and gradients are discussed with the aid of graphs and tables. From the results, the skin friction coefficient and rate of heat transport are pronounced to be more for hybrid nanofluid than nanofluid.The strength of homogeneous reaction on species concentration is found to be fewer than the heterogeneous reaction. The streamwise coordinate (nonsimilar variable) is more favorable to the concentration of autocatalyst than to the reactant concentration.

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Section: Introductionmentioning

confidence: 99%

Homogeneous and heterogeneous reactions in the mixed convection flow of hybrid nanofluid over a slender cylinder

Patil

Benawadi

Tonannavar

et al. 2022

Asia-Pacific J Chem Eng

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“…Jusoh et al 10 has discussed the method of choosing initial velocity profiles and behavior of eigen values of perturbation of basic flow. Recently, a detailed numerical study of surface roughness of the wall on permeable exponentially stretching sheet is reported by Patil et al 11‐15 The extended work of surface roughness with effects of physical parameters, time variable, and electronically conducted fluid on a moving plate was analyzed, 16‐18 according to the implementation of a new dimensionless parameter for the stable solution.…”

Section: Introductionmentioning

confidence: 99%

Analysis of unsteady force convection flows on irregular boundary over a diverging channel

2020

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The purpose of this study report is to examine the unsteady force convection flow on irregular boundary over a diverging channel with effect of viscous dissipation. The fundamental equations of fluid, continuity, momentum, and energy equations are converted into dimensionless form. The resulting coupled partial differential equations are linearized by quasilinearization technique, the backward, and central difference scheme for nonuniform mesh used to solve the system of linear equations. We found that finite difference scheme for nonuniform mesh gives smoothness of solution compared to finite difference scheme for uniform mesh on irregular boundary, this is evident from Figure 2. Near the wall region, as viscous dissipation ( E c ) increases from 0.2 to 0.5, the temperature profiles overshoots 20% to 112%. Also the effects of Reynolds number (Re) on heat transfer coefficient is comparatively less than skin‐friction coefficient.

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Weakly nonlinear instability analysis in triple‐diffusive convection under gravity modulation in the presence of an internal heat generator

Jakhar,

Anurag,

Kumar

2024

Heat Trans

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The presented study is prepared on the triple‐diffusive convection (TDC) in the presence of an internal heat source to examine the rate of heat and mass transport. The weakly nonlinear instability analysis was used to show the effect of gravity modulation. Such phenomena have been found in space vehicle technology, wind turbines, geothermals, and many more. In the realm of geometry, our analysis encompasses the study of two parallel infinite horizontal plates with gravity in the downward direction. For TDC, we have considered two solutes. For the result validation, we have compared the critical Rayleigh number with the available research. The numerical outcomes are presented through graphs for different physical parameters. Based on the outcomes, we conclude that the Richardson, Prandtl, and Lewis numbers increase the mass and heat transport. The main finding of the present article is of the internal heat source that advances convection.

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Influence of surface roughness on multidiffusive mixed convective nanofluid flow

Cited by 10 publications

References 32 publications

Homogeneous and heterogeneous reactions in the mixed convection flow of hybrid nanofluid over a slender cylinder

Homogeneous and heterogeneous reactions in the mixed convection flow of hybrid nanofluid over a slender cylinder

Analysis of unsteady force convection flows on irregular boundary over a diverging channel

Weakly nonlinear instability analysis in triple‐diffusive convection under gravity modulation in the presence of an internal heat generator

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